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Crude oil flow modelling with the MPTT model

Published online by Cambridge University Press:  17 May 2008

Madjid Meriem Benziane ,
Abdelkrim Liazid ,
Benyebka Bou-Said  and
Olivier Bonneau
Madjid Meriem Benziane
Affiliation:
Département de génie mécanique, Université Hassiba Ben-Bouali, BP 151, Chlef, Algérie
Abdelkrim Liazid
Affiliation:
Laboratoire LTE ENSET-Oran, BP 1523, El Mnaouer, 31000 Oran, Algérie
Benyebka Bou-Said
Affiliation:
Laboratoire de Mécanique des Contacts et des Structures, INSA de Lyon, UMR 5259, 18–20 rue des Sciences, 69621 Villeurbanne Cedex, France
Olivier Bonneau
Affiliation:
Laboratoire de Mécanique des Solides, Faculté des Sciences, SP2MI, Université de Poitiers, Boulevard Marie et Pierre Curie, BP 30179, 86962 Futuroscope-Chasseneuil Cedex, France
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Abstract

The crude oil is a non-Newtonian fluid exhibiting, during its flow, phenomena which cannot be described with the traditional models which consider the fluid as homogeneous. Thus, it is necessary to use or develop a more realistic approach which can take into account the microstructure characteristics of crude oils in the law of behaviour. The application of a non-linear differential model in the case of crude oil flow can not be used. This paper deals with the modelling approach resulting from rheology of the polymer solutions. The Modified Phan-Thien and Tanner model (MPTT) is considered in this paper for an axisymmetric flow in a pipe. The shear stresses calculation with this model is an important step as it allows to study subsequently some important phenomena as the corrosion or the pressure drop which is controlled by the friction factor under turbulent flow conditions. The calculations were about different crude oils and the obtained results are compared to experiments. Some discussions are given.

Keywords

Rheologycrude oilnon-Newtonianflow modellingRhéologiepétrole brutnon-newtonienmodélisation d'écoulement
Type
Research Article
Information
Mechanics & Industry , Volume 9 , Issue 1 , January 2008 , pp. 59 - 70
Copyright
© AFM, EDP Sciences, 2008

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